DE3925362A1 - ELECTROMAGNETIC ACTUATOR - Google Patents

Description

The invention relates to an electromagnetic actuator member for regulating the flow of a throttle fold immediate bypasses, which a stepless ver adjustable closure that controls the bypass cross-section link and a solenoid with one of them moving has an anchor. Actuators of this type are general known.

In the known actuators, the anchor is a relatively long push rod connected to the locking member the. This makes the actuator quite large overall lumpy and there must be considerable effort to store the Anchor and the closing member are driven so that it cannot jam these components. If the closing element is a tax sleeve, which is displaceable in a control cylinder part is held, then the risk of jamming is relative large because the anchor is considerable weight and large Has distance from the control sleeve, so that significant tilt moments can occur. If you store the anchor additionally Lich, it can cause jamming due to curse errors.

The invention has for its object an electro magnetic actuator of the type mentioned above train that it is as compact as possible and none There is a risk of jamming of its moving components.

This object is achieved in that the closing member on its facing the solenoid Side is designed as an anchor.

With this design, the actuator can be essential be made more compact than comparable actuators the. Since the closing element is also the anchor, it is sufficient two storage areas around this together with the anchor to store the trained component. This is the point limb very inexpensive to manufacture and the danger a jamming of the mobile ones that are present in it Components is essential compared to known actuators Lich less.

The actuator can be made particularly compact and the actuating forces that can be generated with it are particularly high, if according to an advantageous embodiment of the Erfin a short-circuit body arranged in the magnetic coil is which one on the side of the closing member Has cone on which the closing member with a keg lige recess is movable.

Adjustment of the actuator is particularly easy Way possible if according to another embodiment the invention of the yoke body a coaxial through has a hole in which a set screw is screwed against which a return spring rests, which is with its other end against the locking member.  

The actuator is particularly simple in design tet when the closing member from the yoke body facing anchor and on the other hand from one Control sleeve exists, which with its the magnetic coil facing end in the basic position of the actuator in a housing-fixed guide sleeve is immersed from the out when the solenoid is energized can push and which with their to the solenoid facing end in a housing-fixed guide cylinder is arranged.

The storage of the closing element with its magnetic iron part and the control sleeve is with little effort and without risk of jamming if according to another embodiment of the invention Control sleeve for storing the closing element in the guide approximately sleeve or the guide cylinder is formed.

On the side of the solenoid is the bearing of the the anchor forming a unit closing member easy and low friction when the guide cylinder near the magnetic coil for mounting the closing element a bearing ring inserted into a circumferential groove having.

The mounting of the bearing ring can be done quickly if it is slanted at one point. The oblique slot leads to an overlap area, so that the bearing ring at the same time sufficiently seals.

It contributes to increasing the magnetic forces if according to a further embodiment of the invention of the guide cylinder one the front side of the closing member Magnetic coil covering flange, which has a white teren yoke body for the solenoid forms.  

The magnet coil is completely enclosed by iron, if the yoke body arranged in the magnet coil on the side facing away from the locking member there end face of the flange covering the magnetic coil and this flange has a cylindrical back ver body with the flange of the guide cylinder ver is bound.

The electromagnetic actuator does not allow be low air flow, moving when energized, first in a locked position and opens further with further energization, if the Control sleeve has an emergency channel, which is in the resulting end position when the solenoid coil is not energized tion between the guide sleeve and the guide cylinder located and with the solenoid energized in the guide cylinder dips before the control sleeve comes out of contact exit sleeve.

The emergency run channel is particularly simple in construction if it passes through two tangential slots in the Guide sleeve is formed.

The assembly of the actuator is particularly special simple and does not require careful adjustment ten when inserting the actuator housing of all built-in parts from its air inlet and air outlet let the opposite side is formed and if this Side through a cover welded to the housing is closed, whereby to cancel play in Ge housing between the lid and the flange of the inner Inference body a corrugated spring is arranged.  

The adjustment of the actuator is still after Attachment and welding of the lid possible if in Cover one that is aligned with the set screw a stopper opening is provided.

The emergency air can easily the special Engine needs to be adjusted if according to another embodiment of the invention a closure adjustable sleeve is pressed into the guide sleeve, so the slots more or less in the guide are able to immerse cylinders.

The invention allows numerous embodiments. To further clarification of their basic principle is one of which is shown in the drawing and is shown below described. The drawing shows the actuator in the Longitudinal section.

The actuator shown has a housing 1 with an air inlet 2 and an air outlet 3rd Between the air inlet 2 and the air outlet 3 , a control sleeve 4 is seen before, which dips with its front end into a housing-fixed guide sleeve 5 and is guided in it. The control sleeve 4 forms a closing element 7 together with an armature 6 . The guide sleeve 4 is made of plastic and is connected to the armature 6 via a snap connection 8 .

The armature 6 has on the side facing away from the air inlet 2 a conical recess 9 , which is able to reach a cone 10 of an inner yoke body 11 of a magnet coil 12 when this magnet coil 12 is energized. To guide the armature 6 serves a bearing ring 13 which is arranged in a circumferential groove 14 of a guide cylinder 15 surrounding the armature 6 . This bearing ring 13 is made of plastic or another bearing material and is slanted at an angle so that it can be inserted into the groove 14 .

To produce a complete, magnetic return circuit, the guide cylinder 15 has a flange 16 covering the air inlet end face of the magnet coil 12 and the inner yoke body 11 has a flange 17 covering the rear side of the magnet coil 12 . The flanges 16 and 17 are connected to one another by a magnetic coil 12 surrounding their outer surface, cylindrical back circuit body 18 .

The inner yoke body 11 has a coaxial through bore 19 into which a set screw 20 is screwed GE. A return spring 21 bears against the end face of this adjusting screw 20 on the air inlet side, which is supported with its other end against the closing member 7 and thereby biases it into the position shown.

Between the control sleeve 4 and the guide cylinder 15 , the control sleeve 4 has two serving as emergency run channel, tangential slots 22 , 23 through which air can flow from the air inlet 2 to the air outlet 3 in the basic position shown in the drawing.

The housing 1 is closed by a cover 24 which is connected to the housing 1 by welding. This cover 24 has a central opening 25 which is aligned with the adjusting screw 20 and is closed by a plug 26 ver. Before the plug 26 is inserted, you can for example push a hexagon key through the opening 25 and set the adjusting screw 20 with it. The actuator 7 is designed so that all built-in parts in the drawing can be seen from the right through the opening to be closed by the cover 24 . Between the cover 24 and the flange 17 , a corrugated spring 27 is arranged, which holds all built-in parts in the position shown.

In the illustrated, de-energized position of the construction parts of the actuator is sufficient for the emergency operation of an internal combustion engine air quantity from the air inlet 2 through the slots 22 and 23 to the air outlet 3 to gelan gene. If the solenoid 12 is energized, the closing member 7 moves with his armature 6 against the force of the return spring 21 towards the return body 11 . The slots 22 , 23 first pass through the guide cylinder 15 , so that the connection between the air inlet 2 and the air outlet 3 , apart from Leckluftmen conditions, is completely blocked. If the voltage of the magnetic coil 12 is increased, the armature 6 moves further in the direction of the magnetic coil 12 . The control sleeve 4 emerges from the guide sleeve 5 and opens because of an increasing flow connection between the air inlet 2 and the air outlet 3rd

Claims (14)

1. Electromagnetic actuator for regulating the flow of a bypass valve bypass, which has a continuously adjustable, the bypass cross-sectional closing member and a solenoid with an armature movable by this, characterized in that the closing member ( 7 ) on its the magnet coil ( 12 ) facing side is designed as an anchor ( 6 ). 2. Electromagnetic actuator according to claim 1, characterized in that in the magnetic coil ( 12 ) a return body ( 11 ) is arranged, which on the side of the closing member ( 7 ) has a cone ( 10 ) on which the closing member ( 7 ) with a conical recess ( 9 ) is movable. 3. Electromagnetic actuator according to claims 1 or 2, characterized in that the yoke body ( 11 ) has a coaxial through bore ( 19 ) into which an adjusting screw ( 20 ) is screwed, against which a return spring ( 21 ) is present, which is with supports its other end against the locking member ( 7 ). 4. Electromagnetic actuator according to at least one of the preceding claims, characterized in that the closing member ( 7 ) from the yoke body ( 11 ) facing armature ( 6 ) and on the other side of a control sleeve ( 4 ), which with its mag Netspule ( 12 ) opposite end in the basic position of the actuator ( 7 ) is immersed in a housing-fixed guide sleeve ( 5 ) from which it is able to move when energized by the solenoid ( 12 ) and which with its end facing the solenoid ( 12 ) in a guide cylinder ( 15 ) fixed to the housing is arranged. 5. Electromagnetic actuator according to claim 4, characterized in that the control sleeve ( 4 ) for the position tion of the closing member ( 7 ) in the guide sleeve ( 5 ) or the guide cylinder ( 15 ) is formed. 6. Electromagnetic actuator according to at least one of the preceding claims, characterized in that the guide cylinder ( 15 ) near the magnetic coil ( 12 ) for mounting the closing member ( 7 ) has a bearing ring ( 13 ) inserted into a circumferential groove ( 14 ). 7. Electromagnetic actuator according to claim 6, characterized in that the bearing ring ( 13 ) is obliquely slotted at one point. 8. Electromagnetic actuator according to at least one of the preceding claims, characterized in that the guide cylinder ( 15 ) has a closing element-side end of the magnet coil ( 12 ) covering flange ( 16 ) which forms a further yoke body for the magnet coil ( 12 ). 9. An electromagnetic actuator according to at least one of the preceding claims, characterized in that the arranged in the magnet coil (12) short-circuit body (11) on the closing member (7) side facing away from a the face of the magnet coil (12) from covering flange local (17 ) and this flange ( 17 ) is connected to the flange ( 16 ) of the guide cylinder ( 15 ) via a cylindrical yoke body ( 18 ). 10. Electromagnetic actuator according to at least one of the preceding claims, characterized in that the control sleeve ( 4 ) has an emergency running channel (slots 22, 23 ) which in the non-energized magnetic coil ( 12 ) resulting end position between the guide sleeve (Füh 5), and is the guide cylinder (15) and immersed when energized magnet coil (12) in the guide cylinder (15) before the control sleeve (4) comes out of the guide sleeve (5). 11. Electromagnetic actuator according to claim 10, characterized in that the emergency run channel is formed by two tangential slots ( 22 , 23 ) in the control sleeve ( 4 ). 12. Electromagnetic actuator according to at least one of the preceding claims, characterized in that the housing ( 1 ) of the actuator for inserting all built-in parts of the side facing away from its air inlet ( 2 ) and air outlet ( 3 ) is formed, and that this side by one with the Housing ( 1 ) welded cover ( 24 ) is closed, a corrugated spring ( 27 ) being arranged between the cover ( 24 ) and the flange ( 17 ) of the inner yoke body ( 11 ) to remove play in the housing ( 1 ). 13. Electromagnetic actuator according to claim 12, characterized in that in the cover ( 24 ) with the adjusting screw ( 20 ) aligned, by a plug ( 26 ) closable opening ( 25 ) is provided. 14. Electromagnetic actuator according to at least one of the preceding claims, characterized in that a closing sleeve ( 28 ) adjustable in the guide sleeve ( 5 ) is pressed so that the slots ( 22 , 23 ) more or less in the guide cylinder ( 15 ) diving ability.